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Original Articles |
Departments of Pediatrics (A.L.O.-S., D.B.D.) and Medicine and Clinical Biochemistry (M.A.S., S.O.), Addenbrooke’s Hospital, and University of Cambridge (M.A.S., D.B.D., S.O.), Cambridge, United Kingdom CB2 2QQ; and Department of Pediatrics, The John Radcliffe Hospital (S.J.H., M.Y.A.), Oxford, OX9 4BX, UK
Address all correspondence and requests for reprints to: Dr. A. L. Ogilvy-Stuart, Neonatal Unit, Rosie Hospital, Addenbrooke’s National Health Service Trust, Cambridge, United Kingdom CB2 2SW. E-mail: amanda.ogilvy-stuart{at}addenbrookes.nhs.uk
Abstract
Humans with congenital absence of the islets of Langerhans and mice
rendered null for the insulin receptor rapidly develop severe
hyperglycemia and ketoacidosis and, if untreated, die in the early
neonatal period. In contrast, children with homozygous or compound
heterozygous mutations of the insulin receptor gene, although
hyperglycemic postprandially, survive for many months without
developing ketoacidosis. Paradoxically, they often develop
hypoglycemia. The rarity of the condition and the difficulties of
undertaking metabolic studies in ill infants have limited the
physiological information that might explain the clinical features. We
studied a boy with Donohue’s syndrome who represents a further example
of the null phenotype, with two different and novel nonsense mutations
in the 
-subunit of the receptor. He survived for 8 months
without developing ketoacidosis, and fasting hypoglycemia was a
frequent problem. Despite the complete absence of insulin receptors,
evidence for persistent insulin-like effects on fat and liver was seen;
fasting plasma ß-hydroxybutyrate and nonesterified fatty acid
levels were low, fell further during the early postprandial period, and
failed to rise in response to hypoglycemia. The inverse relationships
between plasma insulin and insulin-like growth factor-binding protein-1
levels were maintained, suggesting persistent hepatic effects of
insulin. GH levels measured over a 6.5-h period were low
throughout.
Thus, the differences between congenital insulin deficiency vs. insulin receptor deficiency in humans may be explained by persistent insulinomimetic activity of the grossly elevated plasma insulin presumably being mediated through the type 1 insulin-like growth factor receptor. As GH plays a critical role in the regulation of ketogenesis during insulinopenia in humans, but not in rodents, this may contribute to the distinct phenotype of human vs. mouse insulin receptor knockouts.
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